/*
 * Copyright (c) 2010-2022 Belledonne Communications SARL.
 *
 * This file is part of mediastreamer2
 * (see https://gitlab.linphone.org/BC/public/mediastreamer2).
 *
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Affero General Public License as
 * published by the Free Software Foundation, either version 3 of the
 * License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Affero General Public License for more details.
 *
 * You should have received a copy of the GNU Affero General Public License
 * along with this program. If not, see <http://www.gnu.org/licenses/>.
 */

#if defined(HAVE_CONFIG_H)
#include "mediastreamer-config.h"
#endif

#include "bctoolbox/crypto.h"
#include "mediastreamer2/msfilter.h"
#include "mediastreamer2/msticker.h"
#include <speex/speex_echo.h>
#include <speex/speex_preprocess.h>

#ifdef HAVE_CONFIG_H
#include "mediastreamer-config.h"
#endif

#ifdef _WIN32
#include <malloc.h> /* for alloca */
#endif

#include "mediastreamer2/flowcontrol.h"

// #define EC_DUMP 1
#ifdef __ANDROID__
#define EC_DUMP_PREFIX "/sdcard"
#else
#define EC_DUMP_PREFIX "/dynamic/tests"
#endif

static const int framesize = 64;

typedef struct SpeexECState {
	SpeexEchoState *ecstate;
	SpeexPreprocessState *den;
	MSBufferizer delayed_ref;
	MSFlowControlledBufferizer ref;
	MSBufferizer echo;
	int framesize;
	int framesize_at_8000;
	int filterlength;
	int samplerate;
	int delay_ms;
	int tail_length_ms;
	int nominal_ref_samples;
	char *state_str;
#ifdef EC_DUMP
	FILE *echofile;
	FILE *reffile;
	FILE *cleanfile;
#endif
	bool_t echostarted;
	bool_t bypass_mode;
	bool_t using_zeroes;
} SpeexECState;

static void speex_ec_init(MSFilter *f) {
	SpeexECState *s = ms_new0(SpeexECState, 1);

	s->samplerate = 8000;
	ms_bufferizer_init(&s->delayed_ref);
	ms_bufferizer_init(&s->echo);
	ms_flow_controlled_bufferizer_init(&s->ref, f, s->samplerate, 1);
	s->delay_ms = 0;
	s->tail_length_ms = 250;
	s->ecstate = NULL;
	s->framesize_at_8000 = framesize;
	s->den = NULL;
	s->state_str = NULL;
	s->using_zeroes = FALSE;
	s->echostarted = FALSE;
	s->bypass_mode = FALSE;

#ifdef EC_DUMP
	{
		char *fname = ms_strdup_printf("%s/msspeexec-%p-echo.raw", EC_DUMP_PREFIX, f);
		s->echofile = fopen(fname, "w");
		ms_free(fname);
		fname = ms_strdup_printf("%s/msspeexec-%p-ref.raw", EC_DUMP_PREFIX, f);
		s->reffile = fopen(fname, "w");
		ms_free(fname);
		fname = ms_strdup_printf("%s/msspeexec-%p-clean.raw", EC_DUMP_PREFIX, f);
		s->cleanfile = fopen(fname, "w");
		ms_free(fname);
	}
#endif

	f->data = s;
}

static void speex_ec_uninit(MSFilter *f) {
	SpeexECState *s = (SpeexECState *)f->data;
	if (s->state_str) ms_free(s->state_str);
	ms_bufferizer_uninit(&s->delayed_ref);
#ifdef EC_DUMP
	if (s->echofile) fclose(s->echofile);
	if (s->reffile) fclose(s->reffile);
#endif
	ms_free(s);
}

#ifdef SPEEX_ECHO_GET_BLOB

static void apply_config(SpeexECState *s) {
	if (s->state_str != NULL) {
		size_t buflen = strlen(s->state_str);
		uint8_t *buffer = ms_malloc0(buflen);
		SpeexEchoStateBlob *blob;
		if ((bctbx_base64_decode(buffer, &buflen, (const unsigned char *)s->state_str, strlen(s->state_str))) != 0) {
			ms_error("Could not decode base64 %s", s->state_str);
			ms_free(buffer);
			return;
		}
		blob = speex_echo_state_blob_new_from_memory(buffer, (int)buflen);
		ms_free(buffer);
		if (blob == NULL) {
			ms_error("Could not create blob from config string");
			return;
		}
		if (speex_echo_ctl(s->ecstate, SPEEX_ECHO_SET_BLOB, blob) != 0) {
			ms_error("Could not apply speex echo blob !");
		}
		speex_echo_state_blob_free(blob);
		ms_message("speex echo state restored.");
	}
}

static void fetch_config(SpeexECState *s) {
	SpeexEchoStateBlob *blob = NULL;
	char *txt;
	size_t txt_len;

	if (s->ecstate == NULL) return;

	if (speex_echo_ctl(s->ecstate, SPEEX_ECHO_GET_BLOB, &blob) != 0) {
		ms_error("Could not retrieve speex echo blob !");
		return;
	}
	txt_len = (speex_echo_state_blob_get_size(blob) * 4) + 1;
	txt = ms_malloc0(txt_len);
	if (bctbx_base64_encode((unsigned char *)txt, &txt_len, speex_echo_state_blob_get_data(blob),
	                        speex_echo_state_blob_get_size(blob)) != 0) {
		ms_error("Base64 encoding failed.");
		ms_free(txt);
		return;
	}
	speex_echo_state_blob_free(blob);
	if (s->state_str) ms_free(s->state_str);
	s->state_str = txt;
}

#endif

static int adjust_framesize(int framesize, int samplerate) {
	int newsize = (framesize * samplerate) / 8000;
	int n = 1;
	int next;

	while ((next = n << 1) <= newsize) {
		n = next;
	}
	return n;
}

static void configure_flow_controlled_bufferizer(SpeexECState *s) {
	ms_flow_controlled_bufferizer_set_samplerate(&s->ref, s->samplerate);
	ms_flow_controlled_bufferizer_set_max_size_ms(&s->ref, s->delay_ms);
	ms_flow_controlled_bufferizer_set_granularity_ms(&s->ref, (s->framesize * 1000) / s->samplerate);
}

static void speex_ec_preprocess(MSFilter *f) {
	SpeexECState *s = (SpeexECState *)f->data;
	int delay_samples = 0;
	mblk_t *m;

	s->echostarted = FALSE;
	s->filterlength = (s->tail_length_ms * s->samplerate) / 1000;
	s->framesize = adjust_framesize(s->framesize_at_8000, s->samplerate);
	delay_samples = s->delay_ms * s->samplerate / 1000;
	ms_message("Initializing speex echo canceler with framesize=%i, filterlength=%i, delay_samples=%i", s->framesize,
	           s->filterlength, delay_samples);

	s->ecstate = speex_echo_state_init(s->framesize, s->filterlength);
	s->den = speex_preprocess_state_init(s->framesize, s->samplerate);
	speex_echo_ctl(s->ecstate, SPEEX_ECHO_SET_SAMPLING_RATE, &s->samplerate);
	speex_preprocess_ctl(s->den, SPEEX_PREPROCESS_SET_ECHO_STATE, s->ecstate);
	/* fill with zeroes for the time of the delay*/
	m = allocb(delay_samples * 2, 0);
	m->b_wptr += delay_samples * 2;
	ms_bufferizer_put(&s->delayed_ref, m);
	s->nominal_ref_samples = delay_samples;
#ifdef SPEEX_ECHO_GET_BLOB
	apply_config(s);
#else
	if (s->state_str)
		ms_warning("This version of speex doesn't support echo canceller restoration state. Rebuild speex and "
		           "mediatreamer2 if you want to use this feature.");
#endif
}

/*	inputs[0]= reference signal from far end (sent to soundcard)
 *	inputs[1]= near speech & echo signal	(read from soundcard)
 *	outputs[0]=  is a copy of inputs[0] to be sent to soundcard
 *	outputs[1]=  near end speech, echo removed - towards far end
 */
static void speex_ec_process(MSFilter *f) {
	SpeexECState *s = (SpeexECState *)f->data;
	int nbytes = s->framesize * 2;
	mblk_t *refm;
	uint8_t *ref, *echo;

	if (s->bypass_mode) {
		while ((refm = ms_queue_get(f->inputs[0])) != NULL) {
			ms_queue_put(f->outputs[0], refm);
		}
		while ((refm = ms_queue_get(f->inputs[1])) != NULL) {
			ms_queue_put(f->outputs[1], refm);
		}
		return;
	}

	if (f->inputs[0] != NULL) {
		if (s->echostarted) {
			while ((refm = ms_queue_get(f->inputs[0])) != NULL) {
				mblk_t *cp = dupmsg(refm);
				ms_bufferizer_put(&s->delayed_ref, cp);
				ms_flow_controlled_bufferizer_put(&s->ref, refm);
			}
		} else {
			ms_warning("Getting reference signal but no echo to synchronize on.");
			ms_queue_flush(f->inputs[0]);
		}
	}

	ms_bufferizer_put_from_queue(&s->echo, f->inputs[1]);

	ref = (uint8_t *)alloca(nbytes);
	echo = (uint8_t *)alloca(nbytes);
	while ((int)ms_bufferizer_read(&s->echo, echo, nbytes) == nbytes) {
		mblk_t *oecho = allocb(nbytes, 0);
		int avail;

		if (!s->echostarted) s->echostarted = TRUE;
		if ((avail = (int)ms_bufferizer_get_avail(&s->delayed_ref)) < ((s->nominal_ref_samples * 2) + nbytes)) {
			/*we don't have enough to read in a reference signal buffer, inject silence instead*/
			avail = nbytes;
			refm = allocb(nbytes, 0);
			memset(refm->b_wptr, 0, nbytes);
			refm->b_wptr += nbytes;
			ms_bufferizer_put(&s->delayed_ref, refm);
			ms_queue_put(f->outputs[0], dupmsg(refm));
			if (!s->using_zeroes) {
				ms_warning("Not enough ref samples, using zeroes");
				s->using_zeroes = TRUE;
			}
		} else {
			if (s->using_zeroes) {
				ms_message("Samples are back.");
				s->using_zeroes = FALSE;
			}
			/* read from our no-delay buffer and output */
			refm = allocb(nbytes, 0);
			if (ms_flow_controlled_bufferizer_read(&s->ref, refm->b_wptr, nbytes) == 0) {
				ms_fatal("Should never happen");
			}
			refm->b_wptr += nbytes;
			ms_queue_put(f->outputs[0], refm);
		}

		/*now read a valid buffer of delayed ref samples*/
		if (ms_bufferizer_read(&s->delayed_ref, ref, nbytes) == 0) {
			ms_fatal("Should never happen");
		}
		avail -= nbytes;

#ifdef EC_DUMP
		if (s->reffile) fwrite(ref, nbytes, 1, s->reffile);
		if (s->echofile) fwrite(echo, nbytes, 1, s->echofile);
#endif
		speex_echo_cancellation(s->ecstate, (short *)echo, (short *)ref, (short *)oecho->b_wptr);
		speex_preprocess_run(s->den, (short *)oecho->b_wptr);
#ifdef EC_DUMP
		if (s->cleanfile) fwrite(oecho->b_wptr, nbytes, 1, s->cleanfile);
#endif
		oecho->b_wptr += nbytes;
		ms_queue_put(f->outputs[1], oecho);
	}
}

static void speex_ec_postprocess(MSFilter *f) {
	SpeexECState *s = (SpeexECState *)f->data;

	ms_bufferizer_flush(&s->delayed_ref);
	ms_bufferizer_flush(&s->echo);
	ms_flow_controlled_bufferizer_flush(&s->ref);
	if (s->ecstate != NULL) {
		speex_echo_state_destroy(s->ecstate);
		s->ecstate = NULL;
	}
	if (s->den != NULL) {
		speex_preprocess_state_destroy(s->den);
		s->den = NULL;
	}
}

static int speex_ec_set_sr(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	s->samplerate = *(int *)arg;
	configure_flow_controlled_bufferizer(s);
	return 0;
}

static int speex_ec_set_framesize(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	s->framesize_at_8000 = *(int *)arg;
	return 0;
}

static int speex_ec_set_delay(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	s->delay_ms = *(int *)arg;
	configure_flow_controlled_bufferizer(s);
	return 0;
}

static int speex_ec_set_tail_length(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	s->tail_length_ms = *(int *)arg;
	configure_flow_controlled_bufferizer(s);
	return 0;
}
static int speex_ec_set_bypass_mode(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	s->bypass_mode = *(bool_t *)arg;
	ms_message("set EC bypass mode to [%i]", s->bypass_mode);
	return 0;
}
static int speex_ec_get_bypass_mode(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	*(bool_t *)arg = s->bypass_mode;
	return 0;
}

static int speex_ec_set_state(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	s->state_str = ms_strdup((const char *)arg);
	return 0;
}

static int speex_ec_get_state(MSFilter *f, void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
#ifdef SPEEX_ECHO_GET_BLOB
	fetch_config(s);
#endif
	*(char **)arg = s->state_str;
	return 0;
}

static int speex_ec_get_delay(BCTBX_UNUSED(MSFilter *f), void *arg) {
	SpeexECState *s = (SpeexECState *)f->data;
	*(int *)arg = s->delay_ms;
	return 0;
}

static MSFilterMethod speex_ec_methods[] = {{MS_FILTER_SET_SAMPLE_RATE, speex_ec_set_sr},
                                            {MS_ECHO_CANCELLER_SET_TAIL_LENGTH, speex_ec_set_tail_length},
                                            {MS_ECHO_CANCELLER_SET_DELAY, speex_ec_set_delay},
                                            {MS_ECHO_CANCELLER_SET_FRAMESIZE, speex_ec_set_framesize},
                                            {MS_ECHO_CANCELLER_SET_BYPASS_MODE, speex_ec_set_bypass_mode},
                                            {MS_ECHO_CANCELLER_GET_BYPASS_MODE, speex_ec_get_bypass_mode},
                                            {MS_ECHO_CANCELLER_GET_STATE_STRING, speex_ec_get_state},
                                            {MS_ECHO_CANCELLER_SET_STATE_STRING, speex_ec_set_state},
                                            {MS_ECHO_CANCELLER_GET_DELAY, speex_ec_get_delay},
                                            {0, 0}};

#ifdef _MSC_VER

MSFilterDesc ms_speex_ec_desc = {MS_SPEEX_EC_ID,
                                 "MSSpeexEC",
                                 N_("Echo canceller using speex library"),
                                 MS_FILTER_OTHER,
                                 NULL,
                                 2,
                                 2,
                                 speex_ec_init,
                                 speex_ec_preprocess,
                                 speex_ec_process,
                                 speex_ec_postprocess,
                                 speex_ec_uninit,
                                 speex_ec_methods};

#else

MSFilterDesc ms_speex_ec_desc = {.id = MS_SPEEX_EC_ID,
                                 .name = "MSSpeexEC",
                                 .text = N_("Echo canceller using speex library"),
                                 .category = MS_FILTER_OTHER,
                                 .ninputs = 2,
                                 .noutputs = 2,
                                 .init = speex_ec_init,
                                 .preprocess = speex_ec_preprocess,
                                 .process = speex_ec_process,
                                 .postprocess = speex_ec_postprocess,
                                 .uninit = speex_ec_uninit,
                                 .methods = speex_ec_methods};

#endif

MS_FILTER_DESC_EXPORT(ms_speex_ec_desc)
